Volume 9, 1991
Number 1_2, July/September
Tree Physiology 9:1–15 [ Summary ] [ Full Text ]
Evaluating progress toward closed forest models based on fluxes of carbon, water and nutrients
J. J. Landsberg, M. R. Kaufmann, D. Binkley, J. Isebrands and P. G. Jarvis
Tree Physiology 9:17–33 [ Summary ] [ Full Text ]
Modeling the water balance of a small Pinus radiata catchment
D. Whitehead and F. M. Kelliher
Tree Physiology 9:35–57 [ Summary ] [ Full Text ]
Models of water flux through forest stands: critical leaf and stand parameters
David Whitehead and Thomas M. Hinckley
Tree Physiology 9:59–67 [ Summary ] [ Full Text ]
Carbon gain and water use in pinyon pine-juniper woodlands of northern New Mexico: field versus phytotron chamber measurements
Kate Lajtha and Fairley J. Barnes
Tree Physiology 9:69–86 [ Summary ] [ Full Text ]
Carbon budgets of temperate forest ecosystems
Kristiina Vogt
Tree Physiology 9:87–99 [ Summary ] [ Full Text ]
Relationship of forest productivity to nutrient and carbon supply—a modeling analysis
Ross E. McMurtrie
Tree Physiology 9:101–126 [ Summary ] [ Full Text ]
A general biogeochemical model describing the responses of the C and N cycles in terrestrial ecosystems to changes in CO2,
climate, and N deposition
Edward B. Rastetter, Michael G. Ryan, Gaius R. Shaver, Jerry M. Melillo, Knute J. Nadelhoffer, John E. Hobbie and John D. Aber
Tree Physiology 9:127–146 [ Summary ] [ Full Text ]
Modeling changes in red spruce carbon balance and allocation in response to interacting ozone and nutrient stresses
David A. Weinstein, Ronald M. Beloin and Ruth D. Yanai
Tree Physiology 9:147–160 [ Summary ] [ Full Text ]
FOREST-BGC, A general model of forest ecosystem processes for regional applications. II. Dynamic carbon allocation and nitrogen
budgets
Steven W. Running and Stith T. Gower
Tree Physiology 9:161–171 [ Summary ] [ Full Text ]
Simulating the effects of climatic variation on stem carbon accumulation of a ponderosa pine stand: comparison with annual
growth increment data
E. R. Hunt, Jr., F. C. Martin and S. W. Running
Tree Physiology 9:173–184 [ Summary ] [ Full Text ]
Application of a nutrient cycling model (NuCM) to a northern mixed hardwood and a southern coniferous forest
Sally Liu, Ronald Munson, Dale Johnson, Steven Gherini, Karen Summers, Robert Hudson, Kenneth Wilkinson and Louis Pitelka
Tree Physiology 9:185–207 [ Summary ] [ Full Text ]
Nutrient retranslocation in temperate conifers
E. K. Sadanandan Nambiar and David N. Fife
Tree Physiology 9:209–225 [ Summary ] [ Full Text ]
Considerations in modeling change in temperate forest nitrogen cycles
R. J. Raison and R. Stottlemyer
Tree Physiology 9:227–243 [ Summary ] [ Full Text ]
Performance of a canopy light interception model for conifer shoots, trees and stands
Pauline Oker-Blom, Merrill R. Kaufmann and Michael G. Ryan
Tree Physiology 9:245–254 [ Summary ] [ Full Text ]
Interrelation between shoot characteristics and solar irradiance in the crown of Pinus contorta ssp. latifolia
Anna W. Schoettle and William K. Smith
Tree Physiology 9:255–266 [ Summary ] [ Full Text ]
A simple method for estimating gross carbon budgets for vegetation in forest ecosystems
Michael G. Ryan
Tree Physiology 9:267–280 [ Summary ] [ Full Text ]
A source–sink framework for coupling water, carbon, and nutrient dynamics of vegetation
R. J. Luxmoore
Tree Physiology 9:281–292 [ Summary ] [ Full Text ]
Approaches to scaling up physiologically based soil–plant models in space and time
R. J. Luxmoore, A. W. King and M. L. Tharp
Tree Physiology 9:293–306 [ Summary ] [ Full Text ]
Use of individual-based forest succession models to link physiological whole-tree models to landscape-scale ecosystem models
Michael A. Huston
Tree Physiology 9:307–324 [ Summary ] [ Full Text ]
The concept of closure in calculating carbon balance of forests: accounting for differences in spatial and temporal scales
of component processes
E. David Ford and Robert O. Teskey
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